Sex differences in development alter the fledgling sex ratio in a lekking bird with strong sexual size dimorphism
Giraldo-Deck, L. M.; Tolliver, J. D. M.; Algora, H.; Belojevic, J.; Eberhart-Hertel, L. J.; Kempenaers, B.; Koivula, K.; Kupan, K.; Martin, K.; Pakanen, V.-M.; Rohr-Bender, V. A.; Rönka, N.; Lank, D. B.; Küpper, C.
Show abstract
Sex ratio variation is of fundamental importance for population ecology, and the evolution of sex roles and life-histories. Yet, the ecological mechanisms underlying such variation remain often unknown. Using a multiyear dataset from captive and wild precocial Ruffs Calidris pugnax, we show that poorer survival and later fledging of males relative to females result in a female biased sex ratio of the fledgling population. Both sex-specific survival and maturation time contributed equally to an increasing sex ratio bias from hatching to fledging in this sexually dimorphic bird. On average, juvenile females fledged three days earlier than males due to expedited wing development, despite the higher absolute rate of wing growth in males. We argue that sex differences in growth, maturation, and offspring survival are likely the result of strong pre-sexual selection on males to achieve dominance and may help to enforce the Darwinian sex roles observed in this species.
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